Improved next-to-leading order tidal heating and torquing of a Kerr black hole
Abstract
We calculate the energy and angular-momentum fluxes across the event horizon of a tidally deformed, rapidly rotating black hole to next-to-leading order in the curvature of the external spacetime. These are expressed in terms of tidal quadrupole moments and their time derivatives, which provide a characterization of a generic tidal environment. As an application of our results, we provide an expression for the energy and angular-momentum fluxes across the horizon when the black hole is a member of a binary system on a slowly moving, quasicircular orbit. Our expressions are accurate to 1.5 post-Newtonian order beyond the leading-order fluxes, but they are valid for arbitrary mass ratios. We compare our results to those previously obtained in the case of an extreme mass ratio binary, and find that they do not agree at the 1.5 post-Newtonian order. We investigate a number of possible sources for this discrepancy, but are ultimately unable to resolve it.
Additional Information
© 2016 American Physical Society. Received 9 August 2016; published 26 October 2016. We thank Ryuichi Fujita, Hiroyuki Nakano, Norichika Sago, Misao Sasaki, Mark Scheel, Hideyuki Tagoshi, Takahiro Tanaka, and Niels Warburton for the helpful discussions while working on this problem. K. C. acknowledges support from the Onassis Foundation. N. Y. acknowledges support from NSF CAREER Grant No. PHY-1250636. E. P. acknowledges support from the Natural Sciences and Engineering Research Council of Canada.Attached Files
Published - PhysRevD.94.084043.pdf
Submitted - 1608.02899.pdf
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Additional details
- Eprint ID
- 104617
- Resolver ID
- CaltechAUTHORS:20200728-151206638
- Onassis Foundation
- NSF
- PHY-1250636
- Natural Sciences and Engineering Research Council of Canada (NSERC)
- Created
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2020-07-28Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field